Regenerative medicine is a rapidly growing field that utilizes the concept of biological or cellular replacement. It proposes that disease process can be reversed or prevented by repairing damage to the cells or tissues. It utilizes the concept of “conservation of aging process” and promotes a “clotting mechanism”, wherein cells are kept from proliferating. The goal is to use such techniques as well as knowledge of cellular biology, anatomy, cell signaling, biochemistry, molecular mechanisms, and genetic resources. Look at this QC Kinetix (Liberty) regenerative medicine
A variety of diseases can be treated by this approach, and they include cardiovascular disease, neurological disorders, arthritis, cancer, muscle and joint pain, infertility, infectious diseases, auto-immune disorders, vasculitis, osteoarthritis, diabetes, Parkinson’s disease, multiple sclerosis, head injuries, stroke, age-related macular degeneration (MS) and neuromuscular disease. In addition, it also treats many non-fatal, non-traumatic spinal injuries, musculoskeletal problems, and post operative problems. This therapy considers the entire body and its functioning, treating the organ system as a whole. It emphasizes prevention rather than waiting for recovery after an injury or surgery. The goal in regenerative medicine is not only to replace damaged, aged, or diseased tissues, but to prevent or reverse the pathological processes associated with these tissues. This therapy has many applications in the fields of geriatrics, trauma, orthopedics, neurology, and many more.
Tissue engineering is one of the applications of regenerative medicine that makes use of cellular engineering. This technology makes use of living materials such as polymers, polysaccharides, and DNA. The synthetic tissues are implanted into the body in order to provide support or aid to the injured organs. They are then integrated with the existing blood supply, and other existing tissues to provide the much needed support or aid.
Another application of regenerative medicine focuses on the organ systems themselves. For example, lung tissues can be grown and maintained in a lab. Once grown, these tissues can then be integrated into a patient’s body to help promote healing of the organ. These therapies are particularly helpful to those with severe injuries, or disease which have damaged the lung or other organs.
Another application of this therapy focuses on using synthetic, cloned, or induced stem cells. These cells can be produced in a lab through a procedure using genetic engineering, and then implanted to replace damaged, dead, or dying cells. This therapy offers many benefits to the patient including being able to treat diseases at their earliest possible stages, and helping them recover from traumatic injuries. Furthermore, these treatments offer great potential for treating many types of organ and tissue diseases, since they can target and treat certain cells in a very efficient manner. Additionally, stem cells produced by this therapy can be stored for future use, in case a patient’s own cells fail.
Finally, many practitioners of regenerative medicine believe that human cells can be “rejuvenated” when exposed to an environment which causes them to divide and form new mature adult cells. This can be achieved through exercise, diet, and massage therapy. This process can be repeated time again to increase the number of new adult cells formed at any given time. This technique is sometimes called “induced proliferation.” In this manner, adult stem cells are induced to form new organs and tissues in a person’s body.
Because the body uses many stem cell-based therapies, it has been much sought after to find out what combinations would have the greatest effect on healing. For this reason, researchers have had a great interest in developing the technologies used in regenerative medicine to improve their effectiveness. Some of the methods being developed use a patient’s own blood as a source of either building up or repairing a damaged organ, while others use adult cord blood stem cells.
The field of regenerative medicine continues to grow and experiment more successful ways to repair and replace injured and diseased tissues and organs. It is important for patients to know that, just as with other forms of medicine, not all stem cells created through this process are effective. As with any medical procedure, there will always be unknowns. However, by learning more about the process and the possible benefits, patients should be more confident in allowing a doctor to transplant cells into a damaged tissue.Read More